03:25Covalent Bonding Of Hydrogen, Oxygen & Nitrogen | Properties of Matter | Chemistry | FuseSchoolFuseSchool - Global Education970views1rank
Multiple ChoiceWhen two atoms share a pair of electrons, the bonding is referred to as:3557views40rank
Multiple ChoiceBonds between two atoms that are equally or similarly electronegative are ________.2685views30rank
Multiple ChoiceThe hydrogens and oxygen of a water molecule are held together by ______ bonds.2626views33rank1comments
Multiple ChoiceWhen one or more pairs of valence electrons are shared by two neutral atoms, what type of bond is formed? 893views
Textbook QuestionWhich of the following occurs when a covalent bond forms? a. Electrons in valence shells are transferred from one atom to another. b. Electrons in valence shells are shared between atoms. c. Partial charges on polar molecules interact. d. Nonpolar molecules are pushed together.by surrounding water molecules.915views
Textbook QuestionWhich of these molecules would you predict to have the largest number of polar covalent bonds based on their molecular formulas? a. C2H6O (ethanol) b. C2H6 (ethane) c. C2H4O2 (acetic acid) d. C3H8O (propanol)1239views
Textbook QuestionWhich of these molecules would you predict to have the largest number of polar covalent bonds based on their molecular formulas? a. C2H6O (ethanol) b. C2H6 (ethane) c. C2H4O2 (acetic acid) d. C3H8O (propanol)485views
Textbook QuestionThe atomic number of sulfur is 16. Sulfur combines with hydrogen by covalent bonding to form a compound, hydrogen sulfide. Based on the number of valence electrons in a sulfur atom, predict the molecular formula of the compound. a. HS b. HS2 c. H2S d. H4S2501views
Textbook QuestionThe atomic number of sulfur (S) is 16. Sulfur combines with hydrogen by covalent bonding to form a compound, hydrogen sulfide. Based on the number of valence electrons in a sulfur atom, predict the molecular formula of the compound. (Explain your answer.) a. HS b. H2S c. H4S2 d. H4S959views
Textbook QuestionIn terms of electron sharing between atoms, compare nonpolar covalent bonds, polar covalent bonds, and ions.693views